2 publications

2 publications

Exploiting and Engineering Hemoproteins for Abiological Carbene and Nitrene Transfer Reactions

Review

Arnold, F.H.; Fasan, R.

Curr. Opin. Biotechnol. 2017, 47, 102-111, 10.1016/j.copbio.2017.06.005

The surge in reports of heme-dependent proteins as catalysts for abiotic, synthetically valuable carbene and nitrene transfer reactions dramatically illustrates the evolvability of the protein world and our nascent ability to exploit that for new enzyme chemistry. We highlight the latest additions to the hemoprotein-catalyzed reaction repertoire (including carbene Si–H and C–H insertions, Doyle–Kirmse reactions, aldehyde olefinations, azide-to-aldehyde conversions, and intermolecular nitrene C–H insertion) and show how different hemoprotein scaffolds offer varied reactivity and selectivity. Preparative-scale syntheses of pharmaceutically relevant compounds accomplished with these new catalysts are beginning to demonstrate their biotechnological relevance. Insights into the determinants of enzyme lifetime and product yield are providing generalizable cues for engineering heme-dependent proteins to further broaden the scope and utility of these non-natural activities.


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Protein-Based Hybrid Catalysts-Design and Evolution

Review

Ward, T.R.

Curr. Opin. Biotechnol. 2010, 21, 744-752, 10.1016/j.copbio.2010.09.004

Artificial metalloenzymes result from the introduction of a catalytically competent non-native metal cofactor within a protein environment. In the present contribution, we summarize the recent achievements in the design and the optimization of such protein-based hybrid catalysts, with an emphasis on enantioselective transformations. The second part outlines the milestones required to achieve en masse production, screening and directed evolution of artificial metalloenzymes. In the spirit of Darwinian evolution, this will allow the full potential of such protein-based hybrid catalysts to be fully unraveled, thus complementing both homogeneous and enzymatic catalysis.


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